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Tuesday, December 30, 2014

This recent paper from Eric Lander proposes an alternative to GCTA. There is an interesting change in tone vis a vis an earlier paper with Zuk. Instead of speculating about explanations of missing heritability (beyond the existence of yet undiscovered common variants of small effect), the paper focuses on the claim that REML/GCTA underestimates the heritability due to common variants in case-control designs. The proposed alternative methodology, called phenotype correlation–genetic correlation (PCGC) regression, estimates heritability by directly regressing phenotype correlation vs genotype correlation across all pairs in the sample. (This is how I usually explain the concept behind GCTA when I don't want to get into details of REML, LMMs, etc.)

Personally, I am not especially concerned about the precise value of heritability estimates from REML/GCTA or PCGC, as there are significant uncertainties that go beyond the simple additive model assumed in both of these methods (e.g., due to nonlinear genetic architecture). For me it is sufficient that the results of both are consistent with classical estimates from twin and adoption studies, and yield h2 ~ 0.5 or higher for many interesting traits.

Studies have identified thousands of common genetic variants associated with hundreds of diseases. Yet, these common variants typically account for a minority of the heritability, a problem known as “missing heritability.” Geneticists recently proposed indirect methods for estimating the total heritability attributable to common variants, including those whose effects are too small to allow identification in current studies. Here, we show that these methods seriously underestimate the true heritability when applied to case–control studies of disease. We describe a method that provides unbiased estimates. Applying it to six diseases, we estimate that common variants explain an average of 60% of the heritability for these diseases. The framework also may be applied to case–control studies, extreme-phenotype studies, and other settings.

From the conclusion:

... Our results suggest that larger CVASs [GWAS] will identify many additional common variants related to common diseases, although many additional common variants likely still will have effect sizes that fall below the limits of detection given practically achievable sample sizes. Still, common variants clearly will not explain all heritability. As discussed in the first two papers in this series (2,3), rare genetic variants and genetic interactions likely will make important contributions as well. Fortunately, advances in DNA sequencing technology should make it possible in the coming years to carry out comprehensive studies of both common and rare genetic variants in tens (and possibly hundreds) of thousands of cases and controls, resulting in a fuller picture of the genetic architecture of common diseases.

Sunday, December 28, 2014

... Be explorers; take advantage of this vast new landscape that’s been opened up to us in this time and this place; and bear the torch of applied rationality like brave explorers. And then, like, keep in touch by email.” The workshop attendees put giant Post-its on the walls expressing the lessons they hoped to take with them. A blue one read RATIONALITY IS SYSTEMATIZED WINNING. Above it, in pink: THERE ARE OTHER PEOPLE WHO THINK LIKE ME. I AM NOT ALONE.

... I talked to one of my roommates, a Google scientist who worked on neural nets. The CFAR workshop [[ Center For Applied Rationality ]] was just a whim to him, a tourist weekend. “They’re the nicest people you’d ever meet,” he said, but then he qualified the compliment. “Look around. If they were effective, rational people, would they be here? Something a little weird, no?”

... Were they really going to save the world? From what? “Imagine there is a set of skills,” he said. “There is a myth that they are possessed by the whole population, and there is a cynical myth that they’re possessed by 10% of the population. They’ve actually been wiped out in all but about one person in three thousand.” It is important, Vassar said, that his people, “the fragments of the world,” lead the way during “the fairly predictable, fairly total cultural transition that will predictably take place between 2020 and 2035 or so.” We pulled up outside the Rose Garden Inn. He continued: “You have these weird phenomena like Occupy where people are protesting with no goals, no theory of how the world is, around which they can structure a protest. Basically this incredibly, weirdly, thoroughly disempowered group of people will have to inherit the power of the world anyway, because sooner or later everyone older is going to be too old and too technologically obsolete and too bankrupt. The old institutions may largely break down or they may be handed over, but either way they can’t just freeze. These people are going to be in charge, and it would be helpful if they, as they come into their own, crystallize an identity that contains certain cultural strengths like argument and reason.” I didn’t argue with him, except to press, gently, on his particular form of elitism. His rationalism seemed so limited to me, so incomplete. “It is unfortunate,” he said, “that we are in a situation where our cultural heritage is possessed only by people who are extremely unappealing to most of the population.” That hadn’t been what I’d meant. I had meant rationalism as itself a failure of the imagination. “The current ecosystem is so totally fucked up,” Vassar said. “But if you have conversations here” -- he gestured at the hotel -- “people change their mind and learn and update and change their behaviors in response to the things they say and learn. That never happens anywhere else.” ...

Exactly how exploitative are Chinese development activities on the African continent? What exactly is motivating the various resources-for-development deals inked by African governments over the last decade, and what strategies are these governments now adopting in the face of power imbalances with China? What is driving the mass migration of Chinese workers to the African continent, and why does everyone from Senegal seem to come from Henan?

This week on Sinica, we ask these questions and many more as Kaiser Kuo and Jeremy Goldkorn are joined in conversation with Howard French. If you've spent a while in China, you may have heard of Howard as the author of a well-known book on Shanghai's architectural legacy, and lecturer on the subject. What you may not know is that he is also an expert on African development, and the new author of China's Second Continent: How a Million Migrants Are Building a New Empire in Africa.

I wonder whether French is familiar with Galton's famous (and very politically incorrect; written in 1873) letter Africa for the Chinese. In some respects Galton is eerily prescient.

... The Chinaman is a being of another kind, who is endowed with a remarkable aptitude for a high material civilization. He is seen to the least advantage in his own country, where a temporary dark age still prevails, which has not sapped the genius of the race, though it has stunted the development of each member of it, by the rigid enforcement of an effete system of classical education which treats originality as a social crime. All the bad parts of his character, as his lying and servility, spring from timidity due to an education that has cowed him, and no treatment is better calculated to remedy that evil than location in a free settlement. The natural capacity of the Chinaman shows itself by the success with which, notwithstanding his timidity, he competes with strangers, wherever he may reside. The Chinese emigrants possess an extraordinary instinct for political and social organization; they contrive to establish for themselves a police and internal government, and they give no trouble to their rulers so long as they are left to manage those matters by themselves. They are good-tempered, frugal, industrious, saving, commercially inclined, and extraordinarily prolific. They thrive in all countries, the natives of the Southern provinces being perfectly able to labor and multiply in the hottest climates. ...

... The pressure of population in China is enormous, and its outflow is great and increasing. There is no lack of material for a suitable immigration into Africa. ... The Chinese have a land hunger, as well as a love for petty traffic, and they would find a field in which to gratify both of these tastes on the East African Coast. There are many Chinese capitalists resident in foreign parts who might speculate in such a system and warmly encourage it. ...

Kuhne claims that no German soldier ever faced court martial for refusing to kill a civilian. He estimates that (only?) about 200k German soldiers in total were involved in the killing of Jews or other civilians. But by the end of the war every German who wanted to know about "crimes in the east" could easily find out. This last observation is supported by letters and diary entries of ordinary people. Matters of national guilt or conscience weighed heavily on soldiers and ordinary Germans by the end of the war, Kuhne claims.

Kuhne makes interesting observations about the male social hierarchy within military units. Those who refused to carry out Nazi orders against civilians were regarded as weaklings, but were not subjected to direct reprisal.

There are two means to unite a people — common ideals and common crime.
—Adolf Hitler, Party Leader, Munich, 1923

If this Jewish business is ever avenged on earth, then have mercy on us Germans.
—Major Trapp, Police Officer, Poland, 1942

For there is a great, bright aspect to this war: namely a great comradeship.
—Adolf Hitler, Reich Chancellor, Berlin, 1942

We Germans are the nation that has gone for this war enthusiastically and will have to bear the consequences.
—Franz Wieschenberg, Wehrmacht Private, Eastern Front, 1944

To stick together and to fight side by side and be wounded side by side, that’s our wish.
—Kurt Kreissler, Wehrmacht NCO, Germany, 1945

Wednesday, December 24, 2014

For years, when asked what I wanted for Christmas, I've been replying: peace on earth, good will toward men :-)

No one ever seems to recognize that this comes from the bible, Luke 2.14 to be precise!

Linus said it best in A Charlie Brown Christmas:

And there were in the same country shepherds abiding in the field, keeping watch over their flock by night.

And, lo, the angel of the Lord came upon them, and the glory of the Lord shone round about them: and they were sore afraid.

And the angel said unto them, Fear not: for, behold, I bring you good tidings of great joy, which shall be to all people.

For unto you is born this day in the city of David a Saviour, which is Christ the Lord.

And this shall be a sign unto you; Ye shall find the babe wrapped in swaddling clothes, lying in a manger.

And suddenly there was with the angel a multitude of the heavenly host praising God, and saying,

Glory to God in the highest, and on earth peace, good will toward men.

Merry Christmas!

In preparation for the new year:

Marcus Aurelius

Or does the bubble reputation distract you? Keep before your eyes the swift onset of oblivion, and the abysses of eternity before us and behind; mark how hollow are the echoes of applause, how fickle and undiscerning the judgments of professed admirers, and how puny the arena of human fame. For the entire earth is but a point, and the place of our own habitation but a minute corner in it; and how many are therein who will praise you, and what sort of men are they?

Tuesday, December 23, 2014

This NYTimes article looks at the gender disparity in technology career success within the Stanford class of 1994.

NYTimes: In the history of American higher education, it is hard to top the luck and timing of the Stanford class of 1994, whose members arrived on campus barely aware of what an email was, and yet grew up to help teach the rest of the planet to shop, send money, find love and navigate an ever-expanding online universe. ...

I found this reader comment to be realistic -- it is consistent with my own experience both as a parent and as a startup founder.

tiddle nyc

I've been in tech field for some years now. Being a working mother, with two kids (one boy, one girl), this subject hits close to home.

When I first started, there were more women in the ranks than it is now. I never experienced any sexism or discrimination in workplace, nor did I ever feel pushed aside. But I have to say this to my fellow female peers, in order to get ahead, you have to stay in the field. Dropping out or even scaling back will not help, and you can't blame others for not entrusting you with high profile projects because you might not be here next week.

Naturally it helps to have a spouse who share chores and childrearing, rather than having the woman/mother/wife to have-it-all, but really do-it-all which is practically impossible. That's how we stay the course and allow a pathway for younger generations of female to move up the ranks.

Looking at my kids - and we raise them to have the same aspirations, ambitions, and aggressiveness - there is indeed certain nature-vs-nurture difference. Justified or not, my son is almost always over-confident in his ability in all situations whereas my daughter is more circumspect and tentative (even if she's more than capable). It takes a lot more encouragement to prompt my daughter to be aggressive, whereas my son naturally does it on his own. As I look around all those in fields like VC and startups, I see mirrors of how men and women behavior.

... According to the results, SMPY men are more concerned with money, prestige, success, creating or inventing something with impact, etc. SMPY women prefer time and work flexibility, want to give back to the community, and are less comfortable advocating unpopular ideas. Some of these asymmetries are at the 0.5 SD level or greater. Here are three survey items with a ~ 0.4 SD or more asymmetry:

# Society should invest in my ideas because they are more important than those of other people.

# Discomforting others does not deter me from stating the facts.

# Receiving criticism from others does not inhibit me from expressing my thoughts.

I would guess that Silicon Valley entrepreneurs and leading technologists are typically about +2 SD on each of these items! One can directly estimate M/F ratios from these parameters ...

NYTimes: ... Mr. Sacks almost wasn't hired because of doubts that he could work well with others; during his job interview, he put the chief financial officer on notice that his own job would be totally different once Mr. Sacks arrived, Mr. Thiel remembered. But his lack of social grace became an asset, according to Mr. Thiel and other former colleagues. He did not waste time on meetings that seemed pointless, and he bluntly insisted that the engineers whittle an eight-page PayPal registration process down to one.

Everyone knew Mr. Sacks was politically conservative, but in the office, he was less bombastic. He had become a manager, he said in an interview, and did not want to hurt the cohesion of his team. But he and Mr. Thiel now had a setting in which to try out their ideas about diversity and meritocracy. 'In the start-up crucible, performing is all that matters,' Mr. Sacks wrote about that time. He wanted to give all job applicants tests of cognitive ability, according to his colleague Keith Rabois, and when the company searched for a new chief executive, one of the requirements was an I.Q. of 160 -- genius level.

The goal was 'pure meritocracy,' said Amy Klement, one of a small number of women to rise high within the organization. She and other women called Mr. Sacks an effective, relentless, generous boss. But some also wondered how comfortable the men running the company were around them. Lauri Schultheis said that when she interviewed to be PayPal's office manager, and its first female employee -- before even Mr. Sacks arrived -- an engineer asked her, 'Does this mean I have to stop looking at porn? ...

Monday, December 22, 2014

"It's been only half jokingly said that today a third of GDP is attributable to quantum mechanics," -- former Lockheed CEO Norm Augustine.

I've heard the one third or 30% of GDP figure from time to time, but have never seen a detailed analysis. A list of modern technologies that arose from quantum mechanics would include: transistors, microprocessors, lasers, sophisticated chemistry and materials science, nuclear energy, memory chips, hard drive storage, LEDs, LCD displays, etc. These certainly account for a significant fraction of GDP.

Estimates of expenditures on communications and information technology alone in developed countries are typically in the 5-10% GDP range, which provides a lower bound. While the actual figure may be less than 30% it is certainly substantial. See here for a history of physics contributions to information technologies.

The huge (but poorly understood) impact of quantum mechanics on modern life is an example of the tremendous long term impact of fundamental research. There is every reason to think that increased world research expenditures would enhance productivity and quality of life, with very high ROI. However, there is little careful thinking about the "right" level of research investment as a fraction of GDP. Instead, we get:

[Wigner] Until 1925, most great physicists, including Einstein and Planck, had doubted that man could truly grasp the deepest implications of quantum theory. They really felt that man might be too stupid to properly describe quantum phenomena. ... the men at the weekly colloquium in Berlin wondered "Is the human mind gifted enough to extend physics into the microscopic domain ...?" Many of those great men doubted that it could.

Beyond Human Science: [This Ted Chiang short story envisions a future in which science has become the province of genetically enhanced "metahumans" -- leaving non-enhanced humans to gape from the sidelines.]

... imagine if research offered hope of a different intelligence-enhancing therapy, one that would allow individuals to gradually "up-grade" their minds to a metahuman-equivalent level. Such a therapy would offer a bridge across what has become the greatest cultural divide in our species' history ...

We need not be intimidated by the accomplishments of metahuman science. We should always remember that the technologies that made metahumans possible were originally invented by humans, and they were no smarter than we.

Background
Next generation sequencing (NGS) is now being used for detecting chromosomal abnormalities in blastocyst trophectoderm (TE) cells from in vitro fertilized embryos. However, few data are available regarding the clinical outcome, which provides vital reference for further application of the methodology. Here, we present a clinical evaluation of NGS-based preimplantation genetic diagnosis/screening (PGD/PGS) compared with single nucleotide polymorphism (SNP) array-based PGD/PGS as a control.

Results
A total of 395 couples participated. They were carriers of either translocation or inversion mutations, or were patients with recurrent miscarriage and/or advanced maternal age. A total of 1,512 blastocysts were biopsied on D5 after fertilization, with 1,058 blastocysts set aside for SNP array testing and 454 blastocysts for NGS testing. In the NGS cycles group, the implantation, clinical pregnancy and miscarriage rates were 52.6% (60/114), 61.3% (49/80) and 14.3% (7/49), respectively. In the SNP array cycles group, the implantation, clinical pregnancy and miscarriage rates were 47.6% (139/292), 56.7% (115/203) and 14.8% (17/115), respectively. The outcome measures of both the NGS and SNP array cycles were the same with insignificant differences. There were 150 blastocysts that underwent both NGS and SNP array analysis, of which seven blastocysts were found with inconsistent signals. All other signals obtained from NGS analysis were confirmed to be accurate by validation with qPCR. The relative copy number of mitochondrial DNA (mtDNA) for each blastocyst that underwent NGS testing was evaluated, and a significant difference was found between the copy number of mtDNA for the euploid and the chromosomally abnormal blastocysts. So far, out of 42 ongoing pregnancies, 24 babies were born in NGS cycles; all of these babies are healthy and free of any developmental problems.

Conclusions
This study provides the first evaluation of the clinical outcomes of NGS-based pre-implantation genetic diagnosis/screening, and shows the reliability of this method in a clinical and array-based laboratory setting. NGS provides an accurate approach to detect embryonic imbalanced segmental rearrangements, to avoid the potential risks of false signals from SNP array in this study.

For those that can read Chinese, the journal Remembrance is archived here.

My father intended to take a sabbatical at Tsinghua University in Beijing when I was in grade school, but reconsidered it because of the craziness of the Cultural Revolution. I recall going with my mom and brother to get a passport photo taken in downtown Ames. Instead, we ended up at the University of Chicago, where my dad worked with another fluid dynamicist interested in vortices and tornadoes. My brother and I knew nothing about the Cultural Revolution, despite my dad's occasional comments. But we did realize we weren't in Iowa anymore when we saw the half dozen locks and iron bar on the door of our Hyde Park apartment in Chicago.

NY Review of Books: ... Besides Remembrance, China has roughly half a dozen other samizdat publications that explore the past through accounts of personal experience, including Scars of the Past (Wangshi Weihen), Annals of the Red Crag (Hongyan Chunqiu), and Yesterday (Zuotian). In addition, there are a growing number of underground documentary films, including some that send students to collect oral histories in villages that suffered during the Great Leap Famine or the Cultural Revolution.

One Saturday this spring, several of Remembrance’s regular writers stopped by the Tiantongyuan apartment for a pot of Pu’er tea and a chat with the journal’s cofounder, the retired film historian Wu Di. As they arrived, Wu leaned back in his chair and gave a running commentary on each. Among them were a computer data specialist at a technical university (“the greatest specialist on Lin Biao!”), an editor of the Communist Party’s flagship newspaper People’s Daily (“obviously he has to keep a low profile”), and a befuddled professor who had to call Wu three times to get directions (“what an egghead—he knows everything about violence in the Cultural Revolution but doesn’t know how to hail a gypsy cab”).

... Yet the memories of his youth stayed with him. He knew he had witnessed history and spent the 1980s carefully writing down what he’d heard, corroborating information with eyewitnesses. A fresh finding was the degree of ethnic hatred that underlay the violence. Official figures show that during the Cultural Revolution in Inner Mongolia 22,900 died and 790,000 were imprisoned, but there was no atonement and no discussion of the fact that most of the killers were Chinese or that the victims overwhelmingly were Mongolians. Wu’s conclusion was that this unresolved era continues to underlie ethnic tensions in the region.

But the manuscript was unpublishable and there was no Remembrance to get even the gist of it published in China. It lay in Wu’s desk drawer, a fading memory of the windswept Mongolian steppes. ...

... According to arcane rules that everyone accepts but whose origins no one knows, China’s public security classifies e-mails to fewer than two hundred people as a private distribution list; anything more is a publication, which means censorship and oversight. So officially, Remembrance’s writers are just people interested in history sending out an e-mail every once in a while to interested friends. It’s not their fault if Remembrance somehow reaches many of China’s educated elite, and is avidly read and collected by researchers abroad. Forwarding is beyond Wu’s control.

Outside, we could hear the men arguing. Their voices rose, until the discussion sounded almost angry; one man seemed to be shouting. The topic was the apologies made to victims of the Cultural Revolution, which had caused much debate in China’s social media in 2013 and 2014. The group could not agree whether it was a good thing or not. I prepared to go over and listen in. Dai looked up.

“They get heated, but it’s a chance for a release. They teach at universities but can’t teach this to their students. Think about that.”

Sunday, December 07, 2014

The full text of The Feynman Lectures is now available online. These lectures were originally delivered to satisfy the physics requirement for first and second year students at Caltech. Legend has it that as the lectures went on, fewer and fewer undergraduates were seen in attendance, with their places taken by graduate students and even members of the faculty! In his epilogue, Feynman notes that only a few dozen students (out of a Caltech cohort of perhaps 200) were able to fully appreciate the material as it was delivered. Nevertheless, the lectures have been a resource for the physics community ever since.

When I was a high school student I took advanced physics courses at the local university. One of my professors suggested I look at the Feynman lectures for more challenging material. I ordered a set (paperback, with red covers) through the university bookstore -- I think they cost $30 in 1982. Years later I obtained a commemorative hardcover set (blue) which sits on my shelf even now.

Well, I've been talking to you for two years and now I'm going to quit. In some ways I would like to apologize, and other ways not. I hope — in fact, I know — that two or three dozen of you have been able to follow everything with great excitement, and have had a good time with it. But I also know that “the powers of instruction are of very little efficacy except in those happy circumstances in which they are practically superfluous.” So, for the two or three dozen who have understood everything, may I say I have done nothing but shown you the things. For the others, if I have made you hate the subject, I'm sorry. I never taught elementary physics before, and I apologize. I just hope that I haven't caused a serious trouble to you, and that you do not leave this exciting business. I hope that someone else can teach it to you in a way that doesn't give you indigestion, and that you will find someday that, after all, it isn't as horrible as it looks.

Finally, may I add that the main purpose of my teaching has not been to prepare you for some examination—it was not even to prepare you to serve industry or the military. I wanted most to give you some appreciation of the wonderful world and the physicist's way of looking at it, which, I believe, is a major part of the true culture of modern times. (There are probably professors of other subjects who would object, but I believe that they are completely wrong.)

Perhaps you will not only have some appreciation of this culture; it is even possible that you may want to join in the greatest adventure that the human mind has ever begun.

What does Feynman mean by the true culture of modern times? Not mincing words, he refers to the greatest adventure that the human mind has ever begun! None can claim themselves an educated thinker or intellectual without mastery of a significant portion of the material in these lectures.

... when I rather unexpectedly was accepted into a good college, Yale, I was determined to make the most of it. I disdained the “preppies” and other privileged students who seemed to regard college as an opportunity to enjoy freedom at long last. I was an intensely serious student, what would probably be called today a “grind.”

At Yale I ended up pursuing two entirely different majors – physics and medieval history. There was no relationship between them in my mind except that both fascinated me. I liked dusty archives, learning to decipher manuscripts in medieval script, and learning all the languages necessary to read the primary and secondary historical literature, especially Latin. I wrote a senior thesis on the use of Latin by contemporary monastic writers to describe the vibrant world of 12th century Flanders in which they lived. I also enjoyed English legal history and the foundations of the Common Law as established in the 11th through 13th centuries. I also did a lot of work on the hagiography of Saint Denis, patron saint of the French monarchy during its formative period in the 9th century.

Physics was entirely different: clean and modern, logical and mathematical. I was lucky enough to be asked by a professor to assist him on an experiment in elementary particle physics at the then-new Fermilab outside of Chicago, home of the world’s largest particle accelerator. I would fly back and forth from New Haven to Chicago, feeling very serious and very important. We were involved in the search for the quark, a sub-atomic particle then only theorized. I eventually wrote my senior thesis, which was later published, on the “charmed quark.”

As far as course choice was concerned, I had no interest in between the extremes of medieval history (history, language, philosophy) on the one hand, and science (physics, chemistry, mathematics) on the other. It may sound shocking to Kennedy School students, but I have taken exactly zero social science courses in my entire life. My arrogant view at the time was that life would eventually teach me political science, sociology, psychology, and even economics, but it would never teach me linear algebra or Latin. It seemed best to get my tuition’s worth from the other topics and get my social science for free!

The end of college brought the usual crisis of what to do next. Such a bimodal distribution of training and interests made the problem more acute. The default solution was to go to medical school, since my father was a physician and I had worked in hospitals back in Philadelphia.

Fortunately, I was rescued from this dilemma by the awarding of a Rhodes scholarship, entitling me to free study at Oxford University. Many Rhodes scholars pursue a second Bachelors degree or a Masters degree at Oxford, but I was still a man in a hurry. I decided I would use the free funding to get my doctorate in theoretical physics. Oxford did not have enough money to have world class experimental facilities in elementary particle physics, but it had a great theoretical physics department. All you need for theoretical physics is a pencil and paper and the ability to sit for hours of intense concentration with a page of equations in front of you. I worked on the theory of quantum chromodynamics, the quantum field theory then postulated to explain the behavior of nuclear reactions and the structure of the sub-atomic zoo of particles. Unfortunately, it was a mathematical theory so complex that its equations could not be solved. I found a way to solve its equations in certain special circumstances, thus allowing it to be tested against experiments. Oxford was a very lively intellectual community. The expatriate Americans would spend long hours debating the topics of the day. Much of my otherwise lacking social science training occurred by osmosis in the pubs with Rhodes friends.

I had no doubt, however, that I wanted a career of thinking and writing in academia, then meaning theoretical physics. I therefore went back to the United States to start to climb the academic ladder in physics, beginning in the usual way with a postdoctoral appointment. I wrote several papers. The one of which I am proudest and which is still frequently cited, was on “time reversal invariance,” the proposition that the world could run backwards according to the same laws by which it runs forwards. While this may seem like a bizarre question to ask, such a symmetry in nature, if it exists, is actually a very fundamental property of our universe.

A Turning Point

I was happily building an academic career in theoretical physics when a serendipitous opportunity arose which opened up an entirely new vista for me. The year was 1979 and the Cold War was ratcheting up to a new peak of tension and the nuclear arsenals to new levels of potential destructiveness. My field of physics dated itself to the wartime Manhattan Project, and many of the senior figures in my field had long participated in the furtherance, but also in the control, of military technology. It was their view that their successor generations had a responsibility to remain involved in these matters. Thus, several senior figures in the field urged me to take a one-year leave of absence from theoretical physics to join a study team of scientists being assembled at the Congressional Office of Technology Assessment. ...

There’s a bitter fight over the patents for CRISPR, a breakthrough new form of DNA editing.

... In April of this year, Zhang and the Broad won the first of several sweeping patents that cover using CRISPR in eukaryotes—or any species whose cells contain a nucleus (see “Broad Institute Gets Patent on Revolutionary Gene-Editing Method”). That meant that they’d won the rights to use CRISPR in mice, pigs, cattle, humans—in essence, in every creature other than bacteria.

The patent came as a shock to some. That was because Broad had paid extra to get it reviewed very quickly, in less than six months, and few knew it was coming. Along with the patent came more than 1,000 pages of documents. According to Zhang, Doudna’s predictions in her own earlier patent application that her discovery would work in humans was “mere conjecture” and that, instead, he was the first to show it, in a separate and “surprising” act of invention.

The patent documents have caused consternation. The scientific literature shows that several scientists managed to get CRISPR to work in human cells. In fact, its easy reproducibility in different organisms is the technology’s most exciting hallmark. That would suggest that, in patent terms, it was “obvious” that CRISPR would work in human cells, and that Zhang’s invention might not be worthy of its own patent.

What’s more, there’s scientific credit at stake. In order to show he was “first to invent” the use of CRISPR-Cas in human cells, Zhang supplied snapshots of lab notebooks that he says show he had the system up and running in early 2012, even before Doudna and Charpentier published their results or filed their own patent application. That timeline would mean he hit on the CRISPR-Cas editing system independently. In an interview, Zhang affirmed he’d made the discoveries on his own. Asked what he’d learned from Doudna and Charpentier’s paper, he said “not much.”

Not everyone is convinced. “All I can say is that we did it in my lab with Jennifer Doudna,” says Charpentier, now a professor at the Helmholtz Centre for Infection Research and Hannover Medical School in Germany. “Everything here is very exaggerated because this is one of those unique cases of a technology that people can really pick up easily, and it’s changing researchers’ lives. Things are happening fast, maybe a bit too fast.”

Thursday, December 04, 2014

(Ellison, an anthropologist, was Dean of the Graduate School under Summers.)

Over lunch not long after Summers took over the presidency in 2001, Ellison said, Summers suggested that some funds should be moved from a sociology program to the Kennedy School, home to many economists and political scientists. ''President Summers asked me, didn't I agree that, in general, economists are smarter than political scientists, and political scientists are smarter than sociologists?" Ellison said. ''To which I laughed nervously and didn't reply."

Abstract: In this essay, we investigate the dominant position of economics within the network of the social sciences in the United States. We begin by documenting the relative insularity of economics, using bibliometric data. Next we analyze the tight management of the field from the top down, which gives economics its characteristic hierarchical structure. Economists also distinguish themselves from other social scientists through their much better material situation (many teach in business schools, have external consulting activities), their more individualist worldviews, and in the confidence they have in their discipline’s ability to fix the world’s problems. Taken together, these traits constitute what we call the superiority of economists, where economists’ objective supremacy is intimately linked with their subjective sense of authority and entitlement. While this superiority has certainly fueled economists’ practical involvement and their considerable influence over the economy, it has also exposed them more to conflicts of interests, political critique, even derision.

... Some fifteen years ago, Richard Freeman (1999: 141) speculated on the origins of this conviction. His assessment was candid: "[S]ociologists and political scientists have less powerful analytical tools and know less than we do, or so we believe. By scores on the Graduate Record Examination and other criteria, our field attracts students stronger than theirs, and our courses are more mathematically demanding."

Chronicle: ... In closing, I would like to suggest two "smell tests" for all sociologists, but especially those engaged with the public sphere, when assessing their work. The first is the Garfinkel rule, mentioned earlier: Never treat your subjects as cultural dopes. If you find yourself struggling to explain away your subjects’ own reasoned and widely held account of what they consider important in explaining their condition, you are up to something intellectually fishy.

The second is this: If you end up with findings that have policy implications that you would never dream of advocating for yourself or your loved ones, be wary of them. A case in point: If you find that neighborhoods have no effects, you should be prepared to do the rational thing and go live in an inner-city neighborhood with its much cheaper real estate, or at least advise your struggling son or daughter searching for an apartment to save by renting there. If the thought offends you, then something stinks.

Wednesday, December 03, 2014

O'Reilly: Bitcoin has spawned a lot of hype, a little apprehension, and plenty of confusion. But the blockchain behind bitcoin is a fundamental technological breakthrough. It has the potential to disrupt a wide range of industries and business practices—from fairly obvious potential financial services and retail industry disruptions to less apparent, but equally transformative, disruptions in areas such as micro-payments, contracts, and governmental services.

15 sessions will provide a coherent overview of the bitcoin and blockchain world, mapping out the challenges and opportunities, covering vital issues like cryptocurrency security and compliance, payments, venture capital, smart contracts, and the future of bitcoin.

Monday, December 01, 2014

National Geographic: ... The ideal rib eye in the American market is a marriage of opposites: It's richly marbled with internal fat to give it flavor, but it has only a thin layer of the back fat that no one wants. In the parlance of the U.S. Department of Agriculture, it's both "prime" and "yield grade 1." Cows that produce such beef are rarer than nose tackles who are great dancers. Only three carcasses in 10,000 make the grade.

But that night in the packing plant, Lawrence watched two go by in close succession—it was like being struck twice by lightning, he said, but in a good way. He pulled out his cell phone and called Dean Hawkins, the head of the animal sciences department at WTAMU. "It's time we cloned one of these things," he said.

... Though it's more expensive, there's a way to spare both cow and rancher the experience of artificial insemination: in vitro fertilization, or IVF. It's 90 percent of Trans Ova's business now, Crow says. The company does about 20,000 cattle IVF procedures a year, including 15 or 20 on the best cows at 44 Farms. ...

"We had a female in our herd—a foundation female," Slattery recalls. "She's deceased now. She lived to 13 years old, and she was very fertile. She had over a hundred progeny—well over a million dollars' worth of progeny in her lifetime. And it never really affected her. She had a wonderful life."

These days 44 Farms has a good idea that it has found such a prizewinner even before she has offspring, because the farm tests its calves' DNA when they're six months old. Just a couple drops of blood taken from the thin skin under the tail suffice. From that blood, Zoetis, a subsidiary of Pfizer, can determine how the animal compares with other Angus cattle at 50,000 points in the genome where Angus cattle are known to vary.

It's unclear what specific effect those individual mutations, or the genes they're part of, have on the animal. But by gathering data on thousands of Angus, Zoetis has established statistical correlations between each variation and traits that cattlemen care about—traits such as birth weight, weaning weight, marbling, and so on. The test assigns the animal a genetic score on each trait.

For the past five years 44 Farms has been using those scores to select animals to breed—and the results are in the beef, Slattery says. Though it's primarily a seed stock producer, 44 Farms also markets its own 44 Steaks to consumers online and to fancy restaurants. Since the farm began using genomic testing, it has seen a 20 percent increase in the number of carcasses that are graded prime or choice, the USDA's second-best grade for beef. Such carcasses fetch premiums of up to $500 a head. "It's absolutely huge," Slattery says.

There's an environmental upside too. The 44 Farms cattle are fattened at a feed yard in Hereford, Texas, but 44 Farms retains ownership of them—and they're given no hormones, antibiotics, or other additives. And thanks to the improved genetics of its herd, it no longer has to fatten them to 1,400 pounds to get meat that has prime or choice marbling. It's slaughtering them at 1,250 pounds, saving more than a month's worth of feed.